Insect Pests of Herbaceous Plants

Dr. R. Chris WilliamsonDepartment of Entomology

Iris Borer

• Larvae feed at base of leaves and hollow-out rhizomes

• Pale pink in color, 1 ½ inches long• Overwinter as eggs, larvae become full

grown by mid-summer• One generation per year

Management

• Sanitation of debris with egg in late summer

• Spring application of contact insecticide before larvae burrow into leaves

Stalk Borer

• Larvae feed in stems of various plants (> 200 species including daisy, gladiolus, hollyhock, iris, peony, rose, etc.)

• Once in plant, can NOT be controlled • Caterpillars are marked with light stripes

laterally• Eggs are laid in summer (August) on grasses

and weeds, hatch following spring• One generation per year

Management

• Sanitation of debris with eggs in fall• Spring application of contact insecticide

before larvae burrow into leaves

European Earwig

• Adults and nymphs feed on flowers, leaves, silk, etc., especially dahlia, carnations, marigold, zenia.

• Omnivore (plants and insects)• Adults are ½ inch long with pincers• One generation per year

Management

• Contact insecticides applied directly to earwig nymphs and adults

Leafminers

• Larvae of flies, small moths, beetles, and sawflies

• Larvae tunnel within leaves creating mines

• Many hosts including chrysanthemums, marigold, and gerbera

• Multiple generations per year

Management

• Timing is critical for contact insecticides• Systemic insecticides are most effective

White Grubs

• Larvae (grubs) of various beetle species• Larvae feed on roots and organic

matter• Typically, one generation per year

(some exceptions)

Management

• Soil insecticides are necessary, post-treatment irrigation in needed

• Preventative and Corrective treatments

Wireworms

• Larvae of click beetles• Larvae tunnel into seeds and roots• Larvae are elongate, hard bodied and

light brown

Management

• Soil insecticides are necessary, post-treatment irrigation in needed

• Preventative and Corrective treatments

Black Vine Weevil

• Adults feed on leaves• Larvae (legless) feed on roots• Overwinter as larvae• Hosts = Wide range of many shrubs

especially yews (Taxus)

Management

• Soil insecticides are necessary, post-treatment irrigation in needed

• Preventative and Corrective treatments

Insects That Suck Fluids or Cell Contents

• Most insects that have a beak have sucking mouthparts (exceptions are weevils)

• Beak or rostrum equipped with stylets

• Stylets are straw-like structures that puncture, inject toxins, and draw out fluids

• Powerful muscle in head to suck fluids

• Honeydew-watery, sweet feces

• Sooty mold fungus

• Adults and immaturesfeed

• Overwinter as adults and eggs (north)

• Multiple generations per year

• Adults and 5 nymphalstages

AdultsImmatures

Azalea lace bug

Stephanitis pyriodes

D. Boyd

• Suck plant sap

• Stippling

• Feed through the stomates on the underside of leaves

• Feeding more common on older foliage (never stems)

• Significant variation among varieties D. Boyd

• Less susceptible

4th of July

Koromo Shikibu

Encore Autumn Rouge

• Native does not equal resistant

D. Boyd, USDA

• Azaleas in the full sun and isolated seem to more damaged

• Natural enemies were more abundant in complex than simple habitats

• Natural enemies were mostly predators (spiders and lacewings adults and immatures)

• Natural enemies preferentially consume more immatures than adults

• Wings as a shield

Azalea Lace Bug Ecology

• Avoid planting azaleas in full sun locations were there is no overstory (islands)

• If planting new plants, choose plant less susceptible varieties

• Apply an insecticide to the underside of leaves or use an insecticide that is systemic (Merit) or Orthene

Integrated Pest Mgt of Azalea lace bug

Whiteflies• Several species

• Many have multiple hosts

• White dusty appearance

• Adults readily fly if disturbed

• Honeydew and sooty mold

Aphids or Plant lice

Numerous species

• Soft scales versus Armored scales

• Crawlers (immature, dispersing stage)

• Crawlers are most vulnerable life stage

Scale Insects

• Most abundant group

• Very prolific crawler production

• Survive on stems or leaves

• Mobile as immatures

• Phloem feeders

• Honeydew\sooty mold

Soft Scales

Cottony cushion scale

Leucanium scale

Calico scale

Wax scale

• More cryptic

• Populations slower in developing\slow decline in host

• No honeydew or sooty mold

• Mobile only as crawlers

Armored Scales

Pine needle scale

Tea scale

False oleander scale

Euonymus scale

Scale Management is different for each group

Treatment target Soft scales Amored

scalesCrawlers Pyrethroids, insecticidal soap, IGR’s

Adults in summer

Systemics(neonicotinoids,

acephate, disulfoton)

Oils Di-syston or

SafariAdults in winter

Dormant oil Dormant oil

Natural enemies help to regulate scale populations

Using systemic, oils or IGR’s may reduce the impact on natural enemies

Fungal infection Parasitoid about to emerge

Thysanoptera (Thrips)

A complex of species

All thrips have fringed wings

Some species vector viruses

Mouthcone

Time from egg to adult ranges from 7-30 d

Western flower thrips

Damage causes speckling or flecking on foliage or flowers.

Attacks numerous plant species

Western flower thrips

Predators

Chemicals

Imidacloprid

• Arachnida not Insecta

• Tick-like body form*

• Eight legs on adults, six on immatures

• Plant feeders and predators

• Piercing -Sucking (chelicerate) mouthparts

Mites

Not all are spider mites

•Tetranychidae (spider mites)

•Tenuipalpidae (false spider mites)

•Tarsonemidae (broad mites)

•Eriphyidae (gall or stunt mites)

Southern red mite

Two spotted spider mite Flat mite\False spider mite

Broad mite

• Elongated body form

• Four legs

• Deformed growth or galls

Gall Mites

‘Finger’ galls on elm foliageMites on grass stem

• Use miticides first, and insecticides labeled for mites (pyrethroids) as a rotation

• Most miticides are comparable in efficacy but target certain life stages

• All life stages-Akari, Judo, Shuttle, Floramite, Ultiflora

• Immature and adult-Pylon, Avid, Triact70, sulfur

• No adult activity-TetraSan and Ovation

Mite Management

• Use restrictions are important for resistance management

• Fewer studies on broad mites than other species

•Akari, Kelthane, Judo

Mite ManagementRose Chafer

• Adults feed (skeletonize) on leaves and flowers

• Adults elongate, about ½ inch long with grey/brown wings

• Adults are active in June• One generation per year

Management

• Contact insecticide applied to active adults

• Insecticidal soaps can be effective but ONLY last < 24 hours

Japanese Beetle

• Adults feed (skeletonize) on leaves and flowers

• Adults broadly-oval, about ½ inch long with coppery/brown wings

• Adults are active in June-September• Attacks > 300 species of plants• One generation per year

Management

• Systemic insecticides soil drenched or injected• Trans-laminar products applied to foliage

prior to or during adult activity• Contact insecticides applied directly to active

adults (in afternoon, under sunny conditions)• Replace susceptible or install non-susceptible

hosts!

Gypsy Moth

• Larvae (caterpillars) defoliate leaves• Larvae have FIVE pairs of blue dots on

dorsal (top) side of thorax• Attacks > 300 species of plants• One generation per year

Gypsy Moth Larvae

Management• Timing of control strategy is critical for

maximum efficacy• Btk is most effective against 1st and 2nd

instars• Various other contact insecticides

perform well on older larvae (3rd – 6thinstars)

• GPSO provides excellent control of egg masses from Sept. – 3 days prior to egg hatch

European Pine Sawfly

• Larvae (caterpillars) are gregarious and defoliate only mature leaves (previous years growth)

• Hosts = Pines including red, Scots, Jack, Mountain, and Mugo.

• One generation per year

European Pine Sawfly

Damage

Colony

Biology

• Adults are wasplike• Adults lay egg in Sept. – Oct. near tips

of branches• Eggs overwinter, hatch in spring

Biology

• Larvae begin feeding in mid-May and continue through June

• Larvae are gray-green with a longitudinal stripe down the back and two light-green stripes and one dark-green or black stripe on each side

Management

• Insecticidal soaps work well for low population densities

• Various contact insecticides, including biorational and conventional, perform well

Emerald Ash Borer

• Adults are larger and brighter green than any other Agrilus spp. (e.g., Bronze birch borer)

• Slender, elongate, 0.3 – 0.5” long, metallic green• Larvae feed (mine) in cambial area of ash

(green, white, black, blue, velvet, pumpkin)

Life Cycleearly June – October

November – late May

June – September

late May – September

Biology

• Eggs are laid on the bark surface or in crevices on the trunk or branches

• Eggs typically hatch in 7-10 days• After hatching, young larvae chew through the

bark and into the cambial region• Larvae thereafter feed on the phloem and outer

sapwood for several weeks

Biology

• Larvae create S-shaped feeding galleries that wind back and forth, extending over 7.5 – 12” in length

• Galleries are typically packed with fine frass• In some instances, woodpeckers feed on larvae

Biology

• EAB overwinters as full-grown larvae in shallow chambers excavated in the sapwood

• Pupation occurs in late April – early May• Newly eclosed adults remain in pupal chamber

for 1-2 weeks• As adults emerge, they create D-shaped exit

holes that are 1/8 in diameter

Distribution and Hosts

• Indigenous to Asia and is known to occur in China, Korea, Japan, Russia, and Taiwan

• Chinese literature reports a high incidence on numerous ash species

• EAB has killed > 20 million ash trees

Control Options?

• All native ash trees appear to be susceptible!• Systemic insecticides and bark spray

applications appear to provide good control when applied preventatively

Additional Information

www.entomology.wisc.edu/emeraldashborer